光电技术应用, 2019, 34 (1): 25, 网络出版: 2019-06-12
光纤电流传感器温度补偿算法研究
Research on Temperature Compensation Algorithm of Fiber Optic Current Sensor
偏振调制 光纤电流传感器 温度补偿 神经 polarization modulation fiber optic current sensor (FOCS) temperature compensation neural network
摘要
为了使基于偏振调制原理的光纤电流传感器(FOCS)的温度误差达到工程应用要求,从理论上分析了FOCS的温度误差特性,分别采用最小二乘法、BP神经网络对FOCS进行温度补偿,实现了传感器的非线性温度误差校正,两种温度补偿算法的实验结果进行对比分析。结果表明,基于神经网络算法的温度补偿结果优于最小二乘法的补偿效果。最后,利用FOCS全温实验对其进行重复性实验验证,经神经网络算法校正后,FOCS在-5 ℃~ +50 ℃范围内的温度误差均小于0.5%。
Abstract
The temperature error characteristics of the fiber optic current sensor (FOCS) based on polarization modulation principle is theoretically analyzed to meet the requirement of engineering application. The temperature compensation of FOCS is realized by least squares method and BP neural network respectively. The nonlinear temperature error correction is realized. And the experimental results of the two temperature compensation algorithms are compared and analyzed. The result shows that the temperature compensation result based on neural network algorithm is better than that of least squares method. The full temperature experiment of FOCS is used to verify the reproducibility. The experimental results show that after corrected by the neural network algorithm, the temperature error of FOCS in the range of from -5 ℃ to +50 ℃ is less than 0.5%.
王来龙, 赵晓辉, 肖浩, 郝鹏. 光纤电流传感器温度补偿算法研究[J]. 光电技术应用, 2019, 34(1): 25. WANG Lai-long, ZHAO Xiao-hui, XIAO Hao, HAO Peng. Research on Temperature Compensation Algorithm of Fiber Optic Current Sensor[J]. Electro-Optic Technology Application, 2019, 34(1): 25.